A semiconductor module cooler includes a fin which is a heat sink, which is thermally connected to a semiconductor element, and which has one or more notches in an edge at one or more arbitrary positions in a longitudinal direction and one or more convex ribs which are formed on a bottom of a water jacket having a cooling flow path and which fit into the one or more notches at one or more arbitrary positions. By doing so, the efficiency of transferring heat generated by the semiconductor element by a coolant is improved and cooling performance is improved.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A semiconductor module cooler for supplying a coolant from an outside to a water jacket and cooling a semiconductor element arranged over an outer surface of the cooler, the cooler comprising: a heat sink which is thermally connected to the semiconductor element; a first flow path which is placed in the water jacket, which extends from a coolant introduction inlet, and in which a guide portion having an incline for leading the coolant toward one side of the heat sink is placed; a second flow path which is placed in the water jacket parallel with and apart from the first flow path, which extends toward a coolant discharge outlet, and which has a sidewall parallel to another side of the heat sink; a flow speed adjusting plate which is placed in the second flow path and which is formed apart from and parallel with said another side of the heat sink; a third flow path formed in a position in the water jacket in which the first flow path connects with the second flow path; and one or more convex ribs which are formed on a bottom of the water jacket having the third flow path and which fit into one or more notches at one or more positions, wherein: the heat sink is placed in the third flow path; and the one or more notches are put in an edge in a longitudinal direction of the heat sink at one or more positions.
2. The semiconductor module cooler according to claim 1 , wherein a position at which each notch is put in the heat sink and a position at which each notch is put in an adjacent heat sink are the same.
3. The semiconductor module cooler according to claim 1 , wherein the one or more ribs are formed so that the one or more ribs are approximately perpendicular to the third flow path.
4. The semiconductor module cooler according to claim 1 , wherein when the one or more ribs fit into the one or more notches, there is clearance, which is a space, between each rib and each notch.
5. The semiconductor module cooler according to claim 4 , wherein the clearance is approximately equal in length to bottom clearance, which is a space, between an end of the heat sink and the bottom of the water jacket.
6. The semiconductor module cooler according to claim 1 , wherein a notch and a rib which fits into the notch are arranged per a length of 10 to 30 mm in the longitudinal direction of the heat sink.
7. The semiconductor module cooler according to claim 1 , wherein the one or more notches and the one or more ribs which fit into the one or more notches are arranged at regular intervals in the longitudinal direction of the heat sink.
8. The semiconductor module cooler according to claim 1 , wherein the one or more notches and the one or more ribs which fit into the one or more notches are arranged at different intervals in the longitudinal direction of the heat sink.
9. The semiconductor module cooler according to claim 8 , wherein: pitches at which notches and ribs which fit into the notches are arranged on an upstream side from which the coolant is introduced are wider than pitches at which notches and ribs which fit into the notches are arranged on a downstream side from which the coolant is discharged; and the pitches at which the notches and the ribs which fit into the notches are arranged on the downstream side are narrower than the pitches at which the notches and the ribs which fit into the notches are arranged on the upstream side.
10. The semiconductor module cooler according to claim 1 , wherein a notch and a rib which fits into the notch are arranged so that a turbulent flow or vortex flow of the coolant which occurs on a downstream side of the rib is approximately right under the semiconductor element.
11. The semiconductor module cooler according to claim 1 , wherein: the first flow path is placed in the water jacket; the first flow path extends from the coolant introduction inlet; and a plurality of guide portions having different inclines for leading the coolant toward one side of the heat sink are placed in the first flow path.
12. The semiconductor module cooler according to claim 11 , wherein the plurality of guide portions: differ in height from a bottom of the first flow path; and have the different inclines.
13. The semiconductor module cooler according to claim 11 , wherein: of the plurality of guide portions, a guide portion which is touching a side of the water jacket is the highest; the plurality of guide portions become lower toward the third flow path; and the plurality of guide portions are formed like fliers from a bottom of the first flow path.
14. The semiconductor module cooler according to claim 11 , wherein the inclines of the plurality of guide portions are formed so that cross-sectional area of the first flow path becomes smaller in a direction in which the first flow path extends from the coolant introduction inlet.
15. The semiconductor module cooler according to claim 11 , wherein: the plurality of guide portions include: a first guide portion which is touching a side of the water jacket; and a second guide portion which is touching the first guide portion across an area fronting the third flow path; and the first guide portion is higher than the second guide portion.
16. The semiconductor module cooler according to claim 15 , wherein: the incline of the first guide portion has a uniform slope in an area fronting the third flow path so that cross-sectional area of the first flow path becomes smaller in a direction in which the first flow path extends from the coolant introduction inlet; and the incline of the second guide portion has different slopes in an area fronting the third flow path so that the cross-sectional area of the first flow path becomes smaller in the direction in which the first flow path extends from the coolant introduction inlet.
17. The semiconductor module cooler according to claim 1 , wherein: one end of the flow speed adjusting plate is at a trailing end portion of the second flow path; and the flow speed adjusting plate is placed apart from said another side of the heat sink and parallel with the heat sink.
18. The semiconductor module cooler according to claim 1 , wherein: one end of the flow speed adjusting plate and a trailing end portion of the second flow path are determined distance apart on a coolant discharge outlet side of the second flow path; and the flow speed adjusting plate is placed apart from said another of the heat sink and parallel with the heat sink.
19. The semiconductor module cooler according to claim 17 , wherein another end of the flow speed adjusting plate and a guide portion formed at a leading end portion of the second flow path are 0.05x or more apart where x is the length of the second flow path.
20. The semiconductor module cooler according to claim 17 , wherein the flow speed adjusting plate is greater than or equal to 0.2 h and smaller than or equal to 0.9 h in height from a bottom of the water jacket where h is the height of the second flow path.
21. The semiconductor module cooler according to claim 1 , wherein: the flow speed adjusting plate is equal in length to the second flow path; and the flow speed adjusting plate is greater than or equal to 0.2 h and smaller than or equal to 0.9 h in height from the bottom of the water jacket where h is the height of the second flow path.
22. The semiconductor module cooler according to claim 1 , wherein: the first flow path is placed in the water jacket; the first flow path extends from the coolant introduction inlet; and a plurality of guide portions having different inclines for leading the coolant toward one side of the heat sink are placed in the first flow path.
23. The semiconductor module cooler according to claim 22 , wherein the plurality of guide portions: differ in height from a bottom of the first flow path; and have the different inclines.
24. The semiconductor module cooler according to claim 23 , wherein: of the plurality of guide portions, a guide portion which is touching a side of the water jacket is the highest; the plurality of guide portions become lower toward the third flow path; and the plurality of guide portions are formed like fliers from a bottom of the first flow path.
25. The semiconductor module cooler according to claim 22 , wherein the inclines of the plurality of guide portions are formed so that cross-sectional area of the first flow path becomes smaller in a direction in which the first flow path extends from the coolant introduction inlet.
26. The semiconductor module cooler according to claim 22 , wherein: the plurality of guide portions include: a first guide portion which is touching a side of the water jacket; and a second guide portion which is touching the first guide portion across an area fronting the third flow path; and the first guide portion is higher than the second guide portion.
27. The semiconductor module cooler according to claim 26 , wherein: the incline of the first guide portion has a uniform slope in an area fronting the third flow path so that cross-sectional area of the first flow path becomes smaller in a direction in which the first flow path extends from the coolant introduction inlet; and the incline of the second guide portion has different slopes in an area fronting the third flow path so that the cross-sectional area of the first flow path becomes smaller in the direction in which the first flow path extends from the coolant introduction inlet.
28. A semiconductor module for supplying a coolant from an outside to a water jacket included in a cooler and cooling a semiconductor element arranged over an outer surface of the cooler, the semiconductor module comprising: a heat sink which is thermally connected to the semiconductor element; a first flow path which is placed in the water jacket, which extends from a coolant introduction inlet, and in which a guide portion having an incline for leading the coolant toward one side of the heat sink is placed; a second flow path which is placed in the water jacket parallel with and apart from the first flow path, which extends toward a coolant discharge outlet, and which has a sidewall parallel to another side of the heat sink; a flow speed adjusting plate which is placed in the second flow path and which is formed apart from and parallel with said another side of the heat sink; a third flow path formed in a position in the water jacket in which the first flow path connects with the second flow path; and one or more convex ribs which are formed on a bottom of the water jacket having the third flow path and which fit into one or more notches at one or more positions, wherein: the coolant introduction inlet and the coolant discharge outlet are formed in a same wall of the water jacket or at positions on the water jacket diagonally opposite to each other; the heat sink is placed in the third flow path; and the one or more notches are put in an edge in a longitudinal direction of the heat sink at one or more positions.
29. The semiconductor module according to claim 28 , wherein: the first flow path is placed in the water jacket; the first flow path extends from the coolant introduction inlet; and a plurality of guide portions having different inclines for leading the coolant toward one side of the heat sink are placed in the first flow path.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
December 13, 2013
December 22, 2015
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.